NO330485B1 - Fluidizing apparatus - Google Patents

Abstract

A fluidizing unit (1) comprising a supply duct (2) arranged to be fed with liquid under pressure, and an outlet duct (5) within the supply duct and projecting past the outlet of the supply duct. The end of the supply duct (2) is closed when the fluidizing unit is not in use. A sheath (9) is connected to the supply duct (2), wherein the screen has at least one inclined aperture (10), and is arranged so that liquid passing through the supply duct passes through the apertures (e) in the screen and is affected to swirl.

Description

In earlier US-A-4 978 251, 4 952 099 and 4 992 006 fluidizing units of the type comprising a supply channel which is arranged to be fed with liquid under pressure, and an outlet channel inside the supply channel and extending past the outlet are described of the supply channel, (hereinafter referred to as of the type described).

Another relevant publication is US-A-3 635 342 which describes a method and device for removing a liquid mass by swirling the liquid near a surface and around a substantially vertical axis.

This invention relates to certain improvements in the fluidizing unit of the type described.

In some applications it is useful to operate the fluidizing unit in directions where the supply channel is open upwards. In such a position, it is possible that particles of the medium in which the fluidizing unit operates may enter the supply channel and block it.

According to a first aspect of the present invention, a fluidizing unit of the type described is characterized in that the end of the supply channel in the fluidizing unit can be closed when the fluidizing unit is not in use.

The supply channel can be closed by a valve body such as an annular valve body which is slidable on the outlet channel between an open position where liquid can leave the supply channel, and a closed position where the valve body seals against the supply channel. The valve body can be arranged so that it opens due to the pressure in the liquid in the supply channel.

Alternatively, the outlet channel may be provided with one radially projecting flange, and the outlet channel may be axially movable within the supply channel so that the radially projecting flange can be brought into contact with the end of the supply channel to seal the supply channel.

In a second improvement which forms a second, independent aspect of the present invention, a fluidizing unit of the type described has a screen provided at the outlet of the supply channel in the fluidizing unit, the screen having at least one inclined opening arranged so that liquid passing through the supply channel passes through the opening(s) in the screen and is affected to swirl; characterized in that the outlet channel is provided with a radially outward projecting annular flange, and the screen is provided between the end of the supply channel and the annular flange.

The swirling of the liquid can be improved if a shroud is provided to surround the screen with an annular gap between the screen and the shroud.

The invention shall be described in more detail in the following in connection with some exemplary embodiments and with reference to the drawings, where Figure 1 is a sectional view of a known fluidizing unit, Figure 2 is a sectional view of an end of the fluidizing unit in accordance with the first aspect of the present invention, Figure 3 is a sectional view of one end of a second example of a fluidizing unit according to the first aspect of the present invention, Figure 4 is a sectional view of a fluidizing unit taken only as background material, Figure 5 is a sectional view following the line V-V in Figure 4, Figure 6 is a sectional view of a first example of a fluidizing unit according to a second aspect of the present invention, Figure 7 is a sectional view of a second example of a fluidizing unit according to a second aspect of the present invention, and Figure 8 is a sectional view along the line VIII-VIII in Figure 7.

The fluidizing unit 1 shown in Figure 1 is of the general type described in US-A-4 978 251, US-A-4 952 099 and US-A-4 992 006. The fluidizing unit 1 comprises a liquid supply channel 2 which consists of a feed line 1 and an annular chamber 4 which has a tapered portion 4A so that the chamber is tapered down to a smaller diameter towards the outlet of the outlet channel. The feed line 3 leads tangentially into the annular chamber 4 to cause the fluid supplied to the annular chamber to swirl. An outlet channel 5 is provided within and projects beyond the end of the annular chamber 4.

In use, the fluidizing unit is placed in a medium to be fluidized. Liquid is supplied through the liquid supply channel to fluidize the medium. The liquid and the medium are then released through the outlet channel 5.

Examples constructed in accordance with a first aspect of the present invention are shown in figures 2 and 3.

In Figure 2, most of the fluidizing unit is as shown in Figure 1, but the end of the outlet channel 5A is modified. At the end of the outlet channel 5A there is a radially outward projecting annular flange 6. An annular valve body 7 surrounds the outlet channel 5 and is held on the outlet channel by the annular flange 6. The valve body 7 is arranged so that it can be biased to a closed position where it abuts the end of the supply channel 2 and seals the annulus between the supply channel 2 and the outlet channel 5A. When the fluidizing unit is to be used, liquid is fed through the liquid supply channel 2, and the biasing of the valve body 7 is such that it is overcome by the force from the liquid in the liquid supply channel, and the valve body is therefore driven to an open position to allow the passage of fluid out of the liquid supply channel.

A second example constructed according to the first aspect of the present invention is shown in Figure 3. In this case, most of the fluidizing unit is as shown in Figure 1, but the end of the outlet channel 5B is modified to have a radially outward projecting annular flange 8 In addition, the outlet channel 5B is axially movable inside the liquid supply channel 2 from an open position (as shown by solid lines in Figure 3) to a closed position where the flange 8 abuts the end of the liquid supply channel 2 (as shown by dashed lines in Figure 3). As in the first example, this can also be arranged so that the outlet channel is moved axially by the force from the liquid in the supply channel 2.

A further example of a fluidizing unit is shown in Figures 4 and 5. This example differs from that shown in Figure 1 firstly in that the inlet 3C is radial and secondly in that a screen 9 is provided in the chamber 4 which separates the inlet 3C from the outlet of the outlet channel 2.

As best shown in Figure 5, the screen 9 is provided with slits 10 which are inclined in a radial direction.

The liquid entering the chamber 4 passes through the slits 10 and is caused to swirl around the outlet channel 5.

An example constructed in accordance with a second aspect of the present invention is shown in Figure 6. In this example, the supply channel 2D and the outlet channel 5D are open upwards. The outlet channel 5D is provided at its end with a radially outward projecting flange 11. A screen 9D having a similar structure to that shown in Figure 5 is fitted between the end of the supply channel 2D and the end of the flange 11. Therefore, water in the supply channel is not affected to vortex before leaving the feed channel.

A second example constructed in accordance with a second aspect of the present invention is shown in Figures 7 and 8. This is the same as the first example in Figure 7, except that a jacket 12 is provided in one piece at the end of the supply channel 2E and surrounds the screen 9E so that there is an annular gap between the sheath and the screen. The cap 12 serves to improve the swirl of the liquid leaving the supply channel 2E.

Claims (2)

1. Fluidizing unit comprising a supply channel (2) which is arranged to be able to be fed with liquid under pressure, and an outlet channel (5) inside the supply channel and extending beyond the outlet of the supply channel, where a screen (9D, 9E) is provided at the outlet of the supply channel (2) of the fluidizing unit (1). where the screen has at least one inclined opening (10) arranged so that liquid passing through the supply channel passes through the opening(s) in the screen and is influenced to swirl around the axis of the supply channel, characterized in that the outlet channel (5D) is provided with a radially outward projecting annular flange (11), and the screen is provided between the end of the supply channel (2D) and the annular flange. 2. Fluidizing unit according to claim 1, characterized in that a jacket (12) is provided to surround the screen with an annular gap between the screen and the jacket.